Polymer Binder BioCo3 with Silicates and its Application to Microwave-Cured Moulding Sand

Journal title

Archives of Foundry Engineering




vol. 17


No 4



polymer binder ; Silica additive ; Cross-linking ; Microwave radiation ; Moulding sand

Divisions of PAS

Nauki Techniczne


The Katowice Branch of the Polish Academy of Sciences




Artykuły / Articles


DOI: 10.1515/afe-2017-0130


Archives of Foundry Engineering; 2017; vol. 17; No 4


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Wang (2011), Comparative analysis of hazardous air pollutant emissions of casting materials measured in analytical pyrolysis and conventional metal pouring emission tests, Environmental Science Technology, 26, 19. ; Vermöhlen (2000), Adsorption of polyacrylic acid on aluminium oxide DRIFT spectroscopy and ab initio calculations and Surfaces A and, Colloids Physicochemical Engineering Aspects, 170, ; Zhou (2009), The high temperature resistant mechanism of α - starch composite binder for foundry of Materials Processing, Journal Technology, 12, 209, ; Lewandowski (1997), Molds for foundry molds in Polish, null. ; Yu (2009), Preparation and experiments for a novel kind of foundry core binder made from modified potato starch Materials and Design, null, 30, 210, ; Zhou (2010), Synthesis and application of modified starch as a shell - core main adhesive in a foundry, Journal of Applied Polymer Science, 14, 216, ; Grabowska (null), FT IR and FT - Raman studies of cross - linking processes with Ca ions glutaraldehyde and microwave radiation for polymer composition of poly ( acrylic acid sodium salt of carboxymethyl starch - In moulding sands Part II A : Molecular and Biomolecular, Spectrochimica Acta Part, 20, 2015, ; Gabryś (2016), Major New Bicomponent Binders for Foundry Moulding Sands Composed of Phenol - Furfuryl Resin and Polycaprolactone, Metalurgija, 16, 385. ; Łucarz (null), Setting Temperature for Thermal Reclamation of Used Moulding Sands on the Basis of Thermal, Analysis Metalurgija, 2015. ; Zhou (2007), Study on synthesis and properties of modified starch binder for foundry of Processing, Journal Materials Technology, 13, 183, ; Giese (2001), Process An Environmentally Friendly System, null, 9, ; Wang (2007), Characterization of hydrocarbon emissions from green sand foundry core binders by analytical pyrolysis Technology, Environmental Science, 25, 22, ; Liu (2014), Thermal - oxidative degradation of high - amylose corn starch of Thermal Analysis and, Journal Calorimetry, 115, ; Patterson (2011), Replacement of Phenol - Formaldehyde in Urethane Binders Transactions of American Foundry, Society, 11, 119. ; Nwaogu (2011), Foundry Coating Technology Materials Applications, Review Sciences, 1143, ; Kaczmarska (2017), Studies on the Gases Emission under High Temperature Condition from Moulding Sands Bonded by Modified Starch Na of Foundry, Archives Engineering, 28, 79. ; Dańko (2016), Physical and chemical characteristics of after - reclamation dust from used sand moulds of, Journal, 30, 1, ; Fayomi (2014), Potentials of Elaeis guineensis and Pinus sylvestris as binders on foundry core strength of Scientific and, Journal Industrial Research, 73, ; Grabowska (2007), Application of microwave radiation for crosslinking of sodium polyacrylate / silica gel system used as abinder in foundry sands, Polimery Polymers, 21, 11. ; Holzter (2014), Study of the harmfulness of molding and core sands with resins at high temperatures, null, 29. ; Fox (2012), Comparison of a new green foundry binder with conventional foundry binders of and, International Journal Adhesion Adhesives, 1, ; McNeill (1990), Thermal stability and degradation mechanisms of poly acrylic acid its salts Part Poly acrylic acid Polymer Degradation and Stability, null, 29, 233, ; Li (2011), Synthesis of carboxymethyl starch with high degree of substitution by a modified dry process, Advanced Materials Research, 24, 233, ; Manas (2008), Industrial Polymers Specialty Polymers Their Applications Group, null, 11. ; Dungan (2006), Blending foundry sands with soil : Effect on dehydrogenase activity of the, Science Total Environment, 357,